the future of geothermal energy · future of geothermal energy by subir k. sanyal geothermex, inc....
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FUTURE OF GEOTHERMAL ENERGY
by
Subir K. SanyalGeothermEx, Inc.
Richmond, California
Enhanced Geothermal Systems (EGS) Web SeminarGeothermal Resources Council
15 July 2009
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TYPES OF GEOTHERMAL ENERGY
• Convective (“Hydrothermal”) systems
• Enhanced geothermal systems (“EGS”)
• Conductive sedimentary systems
• Produced water from oil & gas fields
• Geopressured systems
• Magma energy
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1. CONVECTIVE (“HYDROTHERMAL”) SYSTEMS
• Limited distribution worldwide
• Decades of commercial exploitation history
• Two basic types- Volcanic- Non-volcanic
• Current generation capacity: worldwide 9,000 MW and in the U.S. 3,000 MW
• Estimated reserves in the U.S.: 10,000 to 30,000 MW.
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4154003853703553403253102952802652502352202051901751601451301151008570
Beowawe Field - Initial-State Temperature Distribution
5,000 ft.
15,000 ft.
10,0
00ft.
Temperature (F)
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NUMBER OF ACTIVE VOLCANOES AND GEOTHERMAL RESOURCE BASE
COUNTRY NO. OF ACTIVE VOLCANOES
GEOTHERMAL RESOURCE BASE (MW)
U.S.A 133 23,000
Japan 100 20,000
Indonesia 126 16,000
Philippines 53 6,000
Mexico 35 6,000
Iceland 33 5,800
Nicaragua 20 4,350
New Zealand 19 3,650
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2. ENHANCED GEOTHERMAL SYSTEMS
• Conductive system
• Worldwide distribution
• Still experimental
• Basic challenges:
- Creating a pervasively fractured large rock volume
- Securing commercial well productivity
- Minimizing cooling
- Minimizing water loss
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3. CONDUCTIVE SEDIMENTARY SYSTEM
• In sedimentary basins with high heat flow
• No fracturing needed but deep wells required.
• Not yet commercially proven but should be feasible if reservoir flow capacity and temperature are high enough
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4. OIL & GAS FIELD WATERS
• From deep oil or gas field
• Hot water produced with oil or gas or from depleted oil/gas wells
• No technical challenge but power cost may not always be attractive
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5. GEOPRESSURED SYSTEMS
• Very restricted distribution
• Reservoir pressure higher than hydrostatic
• Kinetic energy, thermal energy and energy from dissolved methane
• No commercial project to date; one demonstration of technical feasibility
• Several technical challenges to making power cost commercial
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MAGMA ENERGY
• Extremely localized
• Many technical challenges
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FUTURE OF GEOTHERMAL ENERGY
• Population and energy consumption forecast
• Potential contribution from various geothermal energy sources
• Reduction in geothermal power cost through technical innovation
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U.S. GEOTHERMAL RESOURCE BASE (M.I.T., 2006)
Resource Type Resource Base up to 10 km (J)
No. of Years of Potential Reserves
Convective 2.4E21 to 9.6 E21 ~1
EGS 1.4E25 1,400
Conductive Sedimentary 1.0E23 10
Oil/Gas Field Waters 1.0E17 to 4.5E17 < 1
Geopressured 7.1E22 to 1.7E23 7 to 17
Magma Energy 7.4E22 7
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Is Geothermal Energy Renewable?
• Geothermal energy would be instantly renewable if the energy extraction rate does not exceed the natural heat loss rate from the earth’s surface, which is of the same order of magnitude (about 1020J per year) as the worldwide energy consumption rate today.
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Is Geothermal Energy Renewable? (Cont’d)
• However, natural heat loss rate per unit area of the earth’s surface (on the order of 50 KW per square km) is so low that commercial geothermal energy extraction is primarily “heat mining.”
• The 6 types of geothermal energy sources considered before are various heat mining schemes, each with a minor contribution from renewable heat flow from the earth’s core.
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How Long Can Geothermal Energy Supply the World?
• Total stored heat energy up to a depth 5 km worldwide = 1.46 x 1026J (Los Alamos Scientific Laboratory, 1981); on the order of 1% of this resource base is minable, implying a worldwide recoverable resource base on the order of 1.46 x 1024J.
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How Long Can Geothermal Energy Supply the World? (Cont’d)
• At the current annual worldwide energy consumption rate of 4.18 x 10 20J (UN World Energy Assessment, 2001), heat mining up to a depth of only 5 km can theoretically supply the world’s energy need for about 3,500 years.
• Since drilling to a depth of at least 10 km is technically feasible today, geothermal heat mining can, in theory, supply the world for many millenia.
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How Long Can Geothermal Energy Supply the World? (Cont’d)
• If a geothermal energy exploitation project is operated for its typical life of 30 years and then stopped, the resource world be naturally replenished in about a century, when it can be exploited again. With such an exploitation scheme, geothermal power can be considered truly renewable, and therefore, practically inexhaustible.
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517 MW per year
202 MW per year
413 MW per year
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CONCLUSIONS
• Of the six basic types of geothermal energy, the resource base in U.S. enhanced geothermal systems is two orders of magnitude higher than in the other types combined; the same is likely to be true for the world.
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CONCLUSIONS (Cont’d)
• Commercial geothermal energy exploitation is primarily a heat mining operation rather than tapping an instantly renewable energy source, such as, solar or wind energy.
• At the current annual energy consumption rate, geothermal heat mining can theoretically supply the world for several millenia.
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CONCLUSIONS (Cont’d)
• If a commercial geothermal exploitation project is operated for a typical life of 30 years and then stopped, the resource would be naturally replenished and available for exploitation again in about a century; with such a scheme a geothermal project could be made entirely renewable, and therefore, practically inexhaustible.
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CONCLUSIONS
• Between years 2010 and 2050, geothermal power capacity in the world would increase from 11,000 MW to perhaps as high as 58,000 MW.
• Rate of growth in power capacity can be much higher given adequate commercial incentives by governments and international agencies.
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